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\(\int \frac {(d+e x)^m}{(a+b \arcsin (c x))^2} \, dx\) [30]

   Optimal result
   Rubi [N/A]
   Mathematica [N/A]
   Maple [N/A] (verified)
   Fricas [N/A]
   Sympy [N/A]
   Maxima [N/A]
   Giac [N/A]
   Mupad [N/A]

Optimal result

Integrand size = 18, antiderivative size = 18 \[ \int \frac {(d+e x)^m}{(a+b \arcsin (c x))^2} \, dx=\text {Int}\left (\frac {(d+e x)^m}{(a+b \arcsin (c x))^2},x\right ) \]

[Out]

Unintegrable((e*x+d)^m/(a+b*arcsin(c*x))^2,x)

Rubi [N/A]

Not integrable

Time = 0.02 (sec) , antiderivative size = 18, normalized size of antiderivative = 1.00, number of steps used = 0, number of rules used = 0, \(\frac {\text {number of rules}}{\text {integrand size}}\) = 0.000, Rules used = {} \[ \int \frac {(d+e x)^m}{(a+b \arcsin (c x))^2} \, dx=\int \frac {(d+e x)^m}{(a+b \arcsin (c x))^2} \, dx \]

[In]

Int[(d + e*x)^m/(a + b*ArcSin[c*x])^2,x]

[Out]

Defer[Int][(d + e*x)^m/(a + b*ArcSin[c*x])^2, x]

Rubi steps \begin{align*} \text {integral}& = \int \frac {(d+e x)^m}{(a+b \arcsin (c x))^2} \, dx \\ \end{align*}

Mathematica [N/A]

Not integrable

Time = 0.73 (sec) , antiderivative size = 20, normalized size of antiderivative = 1.11 \[ \int \frac {(d+e x)^m}{(a+b \arcsin (c x))^2} \, dx=\int \frac {(d+e x)^m}{(a+b \arcsin (c x))^2} \, dx \]

[In]

Integrate[(d + e*x)^m/(a + b*ArcSin[c*x])^2,x]

[Out]

Integrate[(d + e*x)^m/(a + b*ArcSin[c*x])^2, x]

Maple [N/A] (verified)

Not integrable

Time = 1.45 (sec) , antiderivative size = 18, normalized size of antiderivative = 1.00

\[\int \frac {\left (e x +d \right )^{m}}{\left (a +b \arcsin \left (c x \right )\right )^{2}}d x\]

[In]

int((e*x+d)^m/(a+b*arcsin(c*x))^2,x)

[Out]

int((e*x+d)^m/(a+b*arcsin(c*x))^2,x)

Fricas [N/A]

Not integrable

Time = 0.26 (sec) , antiderivative size = 34, normalized size of antiderivative = 1.89 \[ \int \frac {(d+e x)^m}{(a+b \arcsin (c x))^2} \, dx=\int { \frac {{\left (e x + d\right )}^{m}}{{\left (b \arcsin \left (c x\right ) + a\right )}^{2}} \,d x } \]

[In]

integrate((e*x+d)^m/(a+b*arcsin(c*x))^2,x, algorithm="fricas")

[Out]

integral((e*x + d)^m/(b^2*arcsin(c*x)^2 + 2*a*b*arcsin(c*x) + a^2), x)

Sympy [N/A]

Not integrable

Time = 15.55 (sec) , antiderivative size = 17, normalized size of antiderivative = 0.94 \[ \int \frac {(d+e x)^m}{(a+b \arcsin (c x))^2} \, dx=\int \frac {\left (d + e x\right )^{m}}{\left (a + b \operatorname {asin}{\left (c x \right )}\right )^{2}}\, dx \]

[In]

integrate((e*x+d)**m/(a+b*asin(c*x))**2,x)

[Out]

Integral((d + e*x)**m/(a + b*asin(c*x))**2, x)

Maxima [N/A]

Not integrable

Time = 1.79 (sec) , antiderivative size = 237, normalized size of antiderivative = 13.17 \[ \int \frac {(d+e x)^m}{(a+b \arcsin (c x))^2} \, dx=\int { \frac {{\left (e x + d\right )}^{m}}{{\left (b \arcsin \left (c x\right ) + a\right )}^{2}} \,d x } \]

[In]

integrate((e*x+d)^m/(a+b*arcsin(c*x))^2,x, algorithm="maxima")

[Out]

-(sqrt(c*x + 1)*sqrt(-c*x + 1)*(e*x + d)^m - (b^2*c*arctan2(c*x, sqrt(c*x + 1)*sqrt(-c*x + 1)) + a*b*c)*integr
ate((c^2*d*x + (c^2*e*m + c^2*e)*x^2 - e*m)*sqrt(c*x + 1)*sqrt(-c*x + 1)*(e*x + d)^m/(a*b*c^3*e*x^3 + a*b*c^3*
d*x^2 - a*b*c*e*x - a*b*c*d + (b^2*c^3*e*x^3 + b^2*c^3*d*x^2 - b^2*c*e*x - b^2*c*d)*arctan2(c*x, sqrt(c*x + 1)
*sqrt(-c*x + 1))), x))/(b^2*c*arctan2(c*x, sqrt(c*x + 1)*sqrt(-c*x + 1)) + a*b*c)

Giac [N/A]

Not integrable

Time = 0.45 (sec) , antiderivative size = 20, normalized size of antiderivative = 1.11 \[ \int \frac {(d+e x)^m}{(a+b \arcsin (c x))^2} \, dx=\int { \frac {{\left (e x + d\right )}^{m}}{{\left (b \arcsin \left (c x\right ) + a\right )}^{2}} \,d x } \]

[In]

integrate((e*x+d)^m/(a+b*arcsin(c*x))^2,x, algorithm="giac")

[Out]

integrate((e*x + d)^m/(b*arcsin(c*x) + a)^2, x)

Mupad [N/A]

Not integrable

Time = 0.25 (sec) , antiderivative size = 20, normalized size of antiderivative = 1.11 \[ \int \frac {(d+e x)^m}{(a+b \arcsin (c x))^2} \, dx=\int \frac {{\left (d+e\,x\right )}^m}{{\left (a+b\,\mathrm {asin}\left (c\,x\right )\right )}^2} \,d x \]

[In]

int((d + e*x)^m/(a + b*asin(c*x))^2,x)

[Out]

int((d + e*x)^m/(a + b*asin(c*x))^2, x)

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